DE1104031B - Circuit arrangement for generating a control voltage dependent on the phase position of two voltages to be compared - Google Patents

Description

The invention relates to a circuit arrangement for generating one of the phase positions of two control voltage dependent on comparative voltages, preferably for line synchronization in Television receivers. ·

For this purpose, a circuit containing only one diode is known in which the cathode of the Diode both the comparison pulses derived from the oscillator and the balanced or differentiated one Synchronization pulse are supplied. The one obtained by peak rectification of the sum voltage Control voltage is a measure of the phase position of both pulses, as the balanced synchronization pulse is two-sided, i.e. consists of an equally large positive and negative component. This relatively However, a simple circuit has the disadvantage that the control voltage can be significantly influenced by interference pulses is.

A phase detector circuit in the form of a bridge circuit is also known, which is divided into two bridge branches Has rectifier. This known circuit is balanced in such a way that with respect to phase equality there is symmetry of the two signal voltage sources. In this circuit, however, it is for the operating mode essential that two diodes acting as rectifiers, each with a load resistor can be used, the control voltage by connecting the two rectifiers against each other supplied voltage is obtained. In this circuit too, interference pulses cause a change the control voltage causes.

This disadvantage is avoided in a symmetrical phase discriminator circuit in which the Synchronizing pulses symmetrically via a push-pull transformer containing two rectifiers Bridge are fed. Without the addition of an equivalent stress, they are canceled out in this Bridge circuit all input pulses, so too Glitches on. However, if you perform z. B. the center tap of the push-pull transformer z. B. differentiated impulses derived from the line output stage, but which have the same positive and negative Share, the bridge equilibrium shifts and a bridge input voltage arises, which is positive or negative depending on the phase position of the pulses to be compared. Such However, due to the push-pull transformer and the two diodes, discriminators require one relatively large effort. The invention is based on the problem of the known To reduce phase comparison circuits.

This is done according to the invention in that in a circuit arrangement for generating one of the phase position of two voltages to be compared circuit arrangement for generation

one from the phase position of two

to comparative tensions

dependent control voltage

Applicant:

Telefunken G. m. B. H.,

Berlin-Charlottenburg 1,

Ernst-Reuter-Platz

Alfred Pollak, Hanover-Ricklingen,
has been named as the inventor

dependent control voltage parallel to a diode that is to be compared at the cathode and / or at the anode Pulse voltages are supplied, a series circuit of a linear and a non-linear resistor, which does not act as a rectifier from the connection point of which the control voltage is tapped, the resistors so are dimensioned so that the control voltage has the value when the two pulse voltages are in phase Zero and if the phase position deviates therefrom in one or the other direction, a positive one or has a negative value. This results in a bridge circuit that does not have any symmetrical input pulses and thus no push-pull transformer and only one diode needed. To explain the invention in more detail, an exemplary embodiment is given below described on the basis of the illustration.

This shows a phase comparison circuit with a diode 1, the anode of which is connected to ground via a resistor 2 and the cathode of which is connected to ground via a resistor 3. A series circuit "consisting of a resistor 4 and a non-linear resistor 5" is parallel to the diode 1, the connection point of these two resistors 4, 5 being connected to the oscillator 6 to be controlled. The frequency generated by this oscillator or the pulse-shaped voltage derived from the deflection stage is fed via a differentiating element 7 and a capacitor 8 to the anode of the diode 1. The cathode of the diode 1 is fed the negative polarity synchronization pulses 9 derived from the received signal mixture via a capacitor 10. The bridge circuit 1, 2, 3, 4, described so far. 5 he

109 539/444

gives a control voltage with the value zero if the synchronization pulses 9 and the differentiated pulses 11 are in phase and if the comparison pulses fail to appear when the bridge is balanced. As soon as there is no longer any phase equality between the pulses mentioned, a higher or lower voltage results for the nonlinear resistor, which changes the value of the resistor and thereby disturbs the symmetry of the bridge circuit formed by resistors 2, 3, 4 and 5. At the connection point of the resistors 4 and 5, a control voltage therefore arises which depends on the size of the deviation of the pulses to be compared from the phase equality.

Claims (2)

Patent application: 1. Circuit arrangement for generating one of the phase positions of two to be compared Voltage-dependent control voltage, preferably for line synchronization in television receivers, characterized in that in parallel with a diode which is connected to the cathode and / or to the anode is supplied with the pulse voltages to be compared, a series circuit a linear and a non-linear resistor, which does not act as a rectifier, of whose connection point the control voltage is tapped, with the resistors dimensioned in this way are that the control voltage has the value zero when the two pulse voltages are in phase and if the phase position deviates therefrom in one direction or the other, a positive one or has a negative value. 2. A circuit according to claim 1, characterized in that the diode at its cathode Synchronization pulses and at their anode a symmetrical comparison pulse, preferably one differentiated line pulse, is supplied. Considered publications:
German patent specifications No. 905 383, 940 908. 1 sheet of drawings © 109 539/444 3.61